Efficient adaptable wireless network system with agile beamforming

1. A network aggregation device having a non-transitory computer-readable medium with a plurality of non-transitory instructions, the plurality of non-transitory instructions being executable with a processor to manage wireless signaling in a wireless network space, the non-transitory instructions being sufficient for: polling a first and a second base station to collect information associated therewith; controlling the first base station based on the information to wirelessly service a first device using a first beam having a narrow beam form; controlling the second base station based on the information to wirelessly service a second device using a second beam having a wide beam form; and controlling the first beam to include at least a first null directed towards the second base station, the first null lacking any significant power.

2. The network aggregation device of claim 1 wherein the second device is incapable of receiving a narrow beam form.

3. The network aggregation device of claim 1 wherein the wide beam form includes transmission of a broadcast control signal to one or more devices in addition to the first and second devices.

4. The network aggregation device of claim 3 wherein the broadcast control signal includes a MAP.

5. The network aggregation device of claim 1 wherein the wide beam form is an omnidirectional beam form.

6. The network aggregation device of claim 1 wherein the non-transitory instructions are sufficient for: determining a first beam angle of the first beam to be less than a second beam angle of the second beam; and positioning the first null outside of the first beam angle.

7. A network aggregation device having a non-transitory computer-readable medium with a plurality of non-transitory instructions, the plurality of non-transitory instructions being executable with a processor to manage wireless signaling in a wireless network space, the non-transitory instructions being sufficient for: polling a first and a second base station to collect information associated therewith; controlling the first base station based on the information to wirelessly service a first device using a first beam having a narrow beam form; controlling the second base station based on the information to wirelessly service a second device using a second beam having a wide beam form; determining movement of the first device from the information; and adjusting the first beam from the narrow beam form to the wide beam form based on the movement of the first device.

8. The network aggregation device of claim 7 wherein the non-transitory instructions are sufficient for adjusting the first beam from the narrow beam form to the wide beam form proximate in time to the first device moving from being out-of-line with the second base station to being in-line with the second base station.

9. A method A for managing wireless signaling in a wireless network space, the method comprising: polling a first and a second base station to collect information associated therewith; controlling the first base station based on the information to wirelessly service a first device using a first beam having a narrow beam form; controlling the second base station based on the information to wirelessly service a second device using a second beam having a wide beam form; controlling the first beam to include at least a first null directed towards the second base station; determining a first beam angle of the first beam to be less than a second beam angle of the second beam; and positioning the first null outside of the first beam angle.